Use the TheengsDecoder to parse Bluetooth packets and map services to native entities.

This commit is contained in:
Fabio Manganiello 2023-02-20 20:27:17 +01:00
parent 73bf2446bd
commit aa0b909fff
Signed by untrusted user: blacklight
GPG key ID: D90FBA7F76362774
4 changed files with 334 additions and 79 deletions

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@ -298,6 +298,7 @@ autodoc_mock_imports = [
'async_lru', 'async_lru',
'bleak', 'bleak',
'bluetooth_numbers', 'bluetooth_numbers',
'TheengsGateway',
] ]
sys.path.insert(0, os.path.abspath('../..')) sys.path.insert(0, os.path.abspath('../..'))

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@ -19,8 +19,6 @@ from uuid import UUID
from bleak import BleakClient, BleakScanner from bleak import BleakClient, BleakScanner
from bleak.backends.device import BLEDevice from bleak.backends.device import BLEDevice
from bleak.backends.scanner import AdvertisementData from bleak.backends.scanner import AdvertisementData
from bleak.uuids import uuidstr_to_str
from bluetooth_numbers import company
from typing_extensions import override from typing_extensions import override
from platypush.context import get_bus, get_or_create_event_loop from platypush.context import get_bus, get_or_create_event_loop
@ -44,6 +42,8 @@ from platypush.message.event.bluetooth import (
) )
from platypush.plugins import AsyncRunnablePlugin, action from platypush.plugins import AsyncRunnablePlugin, action
from ._mappers import device_to_entity, parse_device_args
UUIDType = Union[str, UUID] UUIDType = Union[str, UUID]
@ -58,6 +58,7 @@ class BluetoothBlePlugin(AsyncRunnablePlugin, EntityManager):
* **bleak** (``pip install bleak``) * **bleak** (``pip install bleak``)
* **bluetooth-numbers** (``pip install bluetooth-numbers``) * **bluetooth-numbers** (``pip install bluetooth-numbers``)
* **TheengsGateway** (``pip install git+https://github.com/BlackLight/TheengsGateway``)
Triggers: Triggers:
@ -129,6 +130,7 @@ class BluetoothBlePlugin(AsyncRunnablePlugin, EntityManager):
self._connections: Dict[str, BleakClient] = {} self._connections: Dict[str, BleakClient] = {}
self._connection_locks: Dict[str, Lock] = {} self._connection_locks: Dict[str, Lock] = {}
self._devices: Dict[str, BLEDevice] = {} self._devices: Dict[str, BLEDevice] = {}
self._entities: Dict[str, BluetoothDevice] = {}
self._device_last_updated_at: Dict[str, float] = {} self._device_last_updated_at: Dict[str, float] = {}
self._device_name_by_addr = device_names or {} self._device_name_by_addr = device_names or {}
self._device_addr_by_name = { self._device_addr_by_name = {
@ -156,104 +158,68 @@ class BluetoothBlePlugin(AsyncRunnablePlugin, EntityManager):
assert dev is not None, f'Unknown device: "{device}"' assert dev is not None, f'Unknown device: "{device}"'
return dev return dev
def _get_device_name(self, device: BLEDevice) -> str:
return (
self._device_name_by_addr.get(device.address)
or device.name
or device.address
)
def _post_event( def _post_event(
self, event_type: Type[BluetoothDeviceEvent], device: BLEDevice, **kwargs self, event_type: Type[BluetoothDeviceEvent], device: BLEDevice, **kwargs
): ):
get_bus().post( get_bus().post(
event_type( event_type(address=device.address, **parse_device_args(device), **kwargs)
address=device.address, **self._parse_device_args(device), **kwargs
)
) )
def _parse_device_args(self, device: BLEDevice) -> Dict[str, Any]: def _on_device_event(self, device: BLEDevice, data: AdvertisementData):
props = device.details.get('props', {}) """
return { Device advertisement packet callback handler.
'name': self._get_device_name(device),
'connected': props.get('Connected', False),
'paired': props.get('Paired', False),
'blocked': props.get('Blocked', False),
'trusted': props.get('Trusted', False),
'rssi': device.rssi,
'tx_power': props.get('TxPower'),
'uuids': {
uuid: uuidstr_to_str(uuid) for uuid in device.metadata.get('uuids', [])
},
'manufacturers': {
manufacturer_id: company.get(manufacturer_id, 'Unknown')
for manufacturer_id in sorted(
device.metadata.get('manufacturer_data', {}).keys()
)
},
'manufacturer_data': self._parse_manufacturer_data(device),
'service_data': self._parse_service_data(device),
}
@staticmethod 1. It generates the relevant
def _parse_manufacturer_data(device: BLEDevice) -> Dict[int, str]: :class:`platypush.message.event.bluetooth.BluetoothDeviceEvent` if the
return { state of the device has changed.
manufacturer_id: ':'.join([f'{x:02x}' for x in value])
for manufacturer_id, value in device.metadata.get(
'manufacturer_data', {}
).items()
}
@staticmethod 2. It builds the relevant
def _parse_service_data(device: BLEDevice) -> Dict[str, str]: :class:`platypush.entity.bluetooth.BluetoothDevice` entity object
return { populated with children entities that contain the supported
service_uuid: ':'.join([f'{x:02x}' for x in value]) properties.
for service_uuid, value in device.details.get('props', {})
.get('ServiceData', {}) :param device: The Bluetooth device.
.items() :param data: The advertisement data.
} """
def _on_device_event(self, device: BLEDevice, _: AdvertisementData):
event_types: List[Type[BluetoothDeviceEvent]] = [] event_types: List[Type[BluetoothDeviceEvent]] = []
existing_device = self._devices.get(device.address) existing_entity = self._entities.get(device.address)
entity = device_to_entity(device, data)
if existing_device: if existing_entity:
old_props = existing_device.details.get('props', {}) if existing_entity.paired != entity.paired:
new_props = device.details.get('props', {})
if old_props.get('Paired') != new_props.get('Paired'):
event_types.append( event_types.append(
BluetoothDevicePairedEvent BluetoothDevicePairedEvent
if new_props.get('Paired') if entity.paired
else BluetoothDeviceUnpairedEvent else BluetoothDeviceUnpairedEvent
) )
if old_props.get('Connected') != new_props.get('Connected'): if existing_entity.connected != entity.connected:
event_types.append( event_types.append(
BluetoothDeviceConnectedEvent BluetoothDeviceConnectedEvent
if new_props.get('Connected') if entity.connected
else BluetoothDeviceDisconnectedEvent else BluetoothDeviceDisconnectedEvent
) )
if old_props.get('Blocked') != new_props.get('Blocked'): if existing_entity.blocked != entity.blocked:
event_types.append( event_types.append(
BluetoothDeviceBlockedEvent BluetoothDeviceBlockedEvent
if new_props.get('Blocked') if entity.blocked
else BluetoothDeviceUnblockedEvent else BluetoothDeviceUnblockedEvent
) )
if old_props.get('Trusted') != new_props.get('Trusted'): if existing_entity.trusted != entity.trusted:
event_types.append( event_types.append(
BluetoothDeviceTrustedEvent BluetoothDeviceTrustedEvent
if new_props.get('Trusted') if entity.trusted
else BluetoothDeviceUntrustedEvent else BluetoothDeviceUntrustedEvent
) )
if ( if (
time() - self._device_last_updated_at.get(device.address, 0) time() - self._device_last_updated_at.get(device.address, 0)
) >= self._rssi_update_interval and ( ) >= self._rssi_update_interval and (
existing_device.rssi != device.rssi existing_entity.rssi != device.rssi
or old_props.get('TxPower') != new_props.get('TxPower') or existing_entity.tx_power != entity.tx_power
): ):
event_types.append(BluetoothDeviceSignalUpdateEvent) event_types.append(BluetoothDeviceSignalUpdateEvent)
else: else:
@ -267,9 +233,32 @@ class BluetoothBlePlugin(AsyncRunnablePlugin, EntityManager):
if event_types: if event_types:
for event_type in event_types: for event_type in event_types:
self._post_event(event_type, device) self._post_event(event_type, device)
self.publish_entities([device])
self._device_last_updated_at[device.address] = time() self._device_last_updated_at[device.address] = time()
for child in entity.children:
child.parent = entity
self.publish_entities([entity])
def _has_changed(self, entity: BluetoothDevice) -> bool:
existing_entity = self._entities.get(entity.id or entity.external_id)
# If the entity didn't exist before, it's a new device.
if not existing_entity:
return True
entity_dict = entity.to_json()
existing_entity_dict = entity.to_json()
# Check if any of the root attributes changed, excluding those that are
# managed by the entities engine).
return any(
attr
for attr, value in entity_dict.items()
if value != existing_entity_dict.get(attr)
and attr not in {'id', 'external_id', 'plugin', 'updated_at'}
)
@asynccontextmanager @asynccontextmanager
async def _connect( async def _connect(
self, self,
@ -318,7 +307,6 @@ class BluetoothBlePlugin(AsyncRunnablePlugin, EntityManager):
self, self,
duration: Optional[float] = None, duration: Optional[float] = None,
uuids: Optional[Collection[UUIDType]] = None, uuids: Optional[Collection[UUIDType]] = None,
publish_entities: bool = False,
) -> Collection[Entity]: ) -> Collection[Entity]:
with self._scan_lock: with self._scan_lock:
timeout = duration or self.poll_interval or 5 timeout = duration or self.poll_interval or 5
@ -330,11 +318,14 @@ class BluetoothBlePlugin(AsyncRunnablePlugin, EntityManager):
) )
self._devices.update({dev.address: dev for dev in devices}) self._devices.update({dev.address: dev for dev in devices})
return ( addresses = {dev.address.lower() for dev in devices}
self.publish_entities(devices) return [
if publish_entities dev
else self.transform_entities(devices) for addr, dev in self._entities.items()
) if isinstance(dev, BluetoothDevice)
and addr.lower() in addresses
and dev.reachable
]
async def _scan_state_set(self, state: bool, duration: Optional[float] = None): async def _scan_state_set(self, state: bool, duration: Optional[float] = None):
def timer_callback(): def timer_callback():
@ -397,9 +388,7 @@ class BluetoothBlePlugin(AsyncRunnablePlugin, EntityManager):
:param uuids: List of characteristic UUIDs to discover. Default: all. :param uuids: List of characteristic UUIDs to discover. Default: all.
""" """
loop = get_or_create_event_loop() loop = get_or_create_event_loop()
return loop.run_until_complete( return loop.run_until_complete(self._scan(duration, uuids))
self._scan(duration, uuids, publish_entities=True)
)
@action @action
def read( def read(
@ -460,15 +449,25 @@ class BluetoothBlePlugin(AsyncRunnablePlugin, EntityManager):
""" """
return self.scan().output return self.scan().output
@override
def publish_entities(
self, entities: Optional[Collection[Any]]
) -> Collection[Entity]:
self._entities.update({entity.id: entity for entity in (entities or [])})
return super().publish_entities(entities)
@override @override
def transform_entities( def transform_entities(
self, entities: Collection[BLEDevice] self, entities: Collection[Union[BLEDevice, BluetoothDevice]]
) -> Collection[BluetoothDevice]: ) -> Collection[BluetoothDevice]:
return [ return [
BluetoothDevice( BluetoothDevice(
id=dev.address, id=dev.address,
**self._parse_device_args(dev), **parse_device_args(dev),
) )
if isinstance(dev, BLEDevice)
else dev
for dev in entities for dev in entities
] ]
@ -480,7 +479,7 @@ class BluetoothBlePlugin(AsyncRunnablePlugin, EntityManager):
await self._scan_enabled.wait() await self._scan_enabled.wait()
entities = await self._scan() entities = await self._scan()
new_device_addresses = {e.id for e in entities} new_device_addresses = {e.external_id for e in entities}
missing_device_addresses = device_addresses - new_device_addresses missing_device_addresses = device_addresses - new_device_addresses
missing_devices = [ missing_devices = [
dev dev
@ -491,6 +490,7 @@ class BluetoothBlePlugin(AsyncRunnablePlugin, EntityManager):
for dev in missing_devices: for dev in missing_devices:
self._post_event(BluetoothDeviceLostEvent, dev) self._post_event(BluetoothDeviceLostEvent, dev)
self._devices.pop(dev.address, None) self._devices.pop(dev.address, None)
self._entities.pop(dev.address, None)
device_addresses = new_device_addresses device_addresses = new_device_addresses

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@ -0,0 +1,253 @@
import json
import struct
from dataclasses import dataclass, field
from typing import Any, Callable, Dict, Optional
from bleak.backends.device import BLEDevice
from bleak.backends.scanner import AdvertisementData
from bleak.uuids import uuidstr_to_str
from bluetooth_numbers import company
# pylint: disable=no-name-in-module
from TheengsGateway._decoder import decodeBLE, getAttribute, getProperties
from platypush.entities import Entity
from platypush.entities.batteries import Battery
from platypush.entities.bluetooth import BluetoothDevice
from platypush.entities.electricity import (
CurrentSensor,
EnergySensor,
PowerSensor,
VoltageSensor,
)
from platypush.entities.humidity import HumiditySensor
from platypush.entities.illuminance import IlluminanceSensor
from platypush.entities.motion import MotionSensor
from platypush.entities.sensors import BinarySensor, NumericSensor, RawSensor
from platypush.entities.temperature import TemperatureSensor
@dataclass
class TheengsEntity:
"""
Utility class to store the data parsed from the Theengs library.
"""
data: dict = field(default_factory=dict)
properties: dict = field(default_factory=dict)
brand: Optional[str] = None
model: Optional[str] = None
model_id: Optional[str] = None
# Maps property names to transformer methods (first mapper choice).
_property_to_entity: Dict[str, Callable[[Any, Dict[str, Any]], Entity]] = {
'battery': lambda value, conf: Battery(
value=value,
unit=conf.get('unit', '%'),
min=conf.get('min', 0),
max=conf.get('min', 100),
),
'current': lambda value, conf: CurrentSensor(
value=value,
unit=conf.get('unit', 'A'),
),
'energy': lambda value, conf: EnergySensor(
value=value,
unit=conf.get('unit', 'kWh'),
),
'humidity': lambda value, conf: HumiditySensor(
value=value,
unit=conf.get('unit', '%'),
min=conf.get('min', 0),
max=conf.get('min', 100),
),
'light level': lambda value, _: IlluminanceSensor(value=value),
'power': lambda value, conf: PowerSensor(
value=value,
unit=conf.get('unit', 'W'),
),
'motion': lambda value, _: MotionSensor(value=value),
'temperature': lambda value, conf: TemperatureSensor(
value=value,
unit=conf.get('unit', 'C'),
),
'voltage': lambda value, conf: VoltageSensor(
value=value,
unit=conf.get('unit', 'V'),
),
}
# Maps reported units to transformer methods (second mapper choice).
_unit_to_entity: Dict[str, Callable[[Any, Dict[str, Any]], Entity]] = {
'status': lambda value, _: BinarySensor(value=value),
'int': lambda value, _: NumericSensor(value=value),
'%': lambda value, conf: NumericSensor(
value=value,
unit='%',
min=conf.get('min', 0),
max=conf.get('min', 100),
),
}
# Maps value types to transformer methods (third mapper choice).
_value_type_to_entity: Dict[type, Callable[[Any, Dict[str, Any]], Entity]] = {
bool: lambda value, _: BinarySensor(value=value),
int: lambda value, _: NumericSensor(value=value),
float: lambda value, _: NumericSensor(value=value),
}
def device_to_entity(device: BLEDevice, data: AdvertisementData) -> BluetoothDevice:
"""
Convert the data received from a Bluetooth advertisement packet into a
compatible Platypush :class:`platypush.entity.bluetooth.BluetoothDevice`
entity, with the discovered services and characteristics exposed as children
entities.
"""
theengs_entity = _parse_advertisement_data(data)
parent_entity = BluetoothDevice(
id=device.address,
model=theengs_entity.model,
brand=theengs_entity.brand,
reachable=True,
**parse_device_args(device),
)
parsed_entities = {
# Check if we can infer an entity mapper from the property name.
conf.get('name', name): _property_to_entity.get(
conf.get('name'),
# If not, check if we can infer an entity mapper from the reported unit.
_unit_to_entity.get(
conf.get('unit'),
# If not, check if we can infer an entity mapper from the value type.
_value_type_to_entity.get(
type(theengs_entity.data.get(name)),
# If not, default to a raw sensor.
lambda value, _: RawSensor(value=value),
),
),
)(theengs_entity.data.get(name), conf)
for name, conf in theengs_entity.properties.items()
}
for prop, entity in parsed_entities.items():
entity.id = f'{parent_entity.id}:{prop}'
entity.name = prop
parent_entity.children.append(entity)
return parent_entity
def _parse_advertisement_data(data: AdvertisementData) -> TheengsEntity:
"""
:param data: The data received from a Bluetooth advertisement packet.
:return: A :class:`platypush.entity.bluetooth.TheengsEntity` instance that
maps the parsed attributes.
"""
entity_args, properties, brand, model, model_id = ({}, {}, None, None, None)
if data.service_data:
parsed_data = list(data.service_data.keys())[0]
# TheengsDecoder only accepts 16 bit uuid's, this converts the 128 bit uuid to 16 bit.
entity_args['servicedatauuid'] = parsed_data[4:8]
parsed_data = str(list(data.service_data.values())[0].hex())
entity_args['servicedata'] = parsed_data
if data.manufacturer_data:
parsed_data = str(
struct.pack('<H', list(data.manufacturer_data.keys())[0]).hex()
)
parsed_data += str(list(data.manufacturer_data.values())[0].hex())
entity_args['manufacturerdata'] = parsed_data
if data.local_name:
entity_args['name'] = data.local_name
if entity_args:
# print('==== DECODING: ====')
# print(entity_args)
encoded_ret = decodeBLE(json.dumps(entity_args))
# print('==== DECODED! ====')
if encoded_ret:
entity_args = json.loads(encoded_ret)
if entity_args.get('model_id'):
properties = json.loads(getProperties(entity_args['model_id'])).get(
'properties', {}
)
model = getAttribute(entity_args['model_id'], 'model')
model_id = entity_args.pop('model_id', None)
return TheengsEntity(
data=entity_args,
properties=properties,
brand=brand,
model=model,
model_id=model_id,
)
def parse_device_args(device: BLEDevice) -> Dict[str, Any]:
"""
:param device: The device to parse.
:return: The mapped device arguments required to initialize a
:class:`platypush.entity.bluetooth.BluetoothDevice` or
:class:`platypush.message.event.bluetooth.BluetoothDeviceEvent`
object.
"""
props = device.details.get('props', {})
return {
'name': device.name or device.address,
'connected': props.get('Connected', False),
'paired': props.get('Paired', False),
'blocked': props.get('Blocked', False),
'trusted': props.get('Trusted', False),
'rssi': device.rssi,
'tx_power': props.get('TxPower'),
'uuids': {
uuid: uuidstr_to_str(uuid) for uuid in device.metadata.get('uuids', [])
},
'manufacturers': {
manufacturer_id: company.get(manufacturer_id, 'Unknown')
for manufacturer_id in sorted(
device.metadata.get('manufacturer_data', {}).keys()
)
},
'manufacturer_data': _parse_manufacturer_data(device),
'service_data': _parse_service_data(device),
}
def _parse_manufacturer_data(device: BLEDevice) -> Dict[int, str]:
"""
:param device: The device to parse.
:return: The manufacturer data as a ``manufacturer_id -> hex_string``
mapping.
"""
return {
manufacturer_id: ''.join([f'{x:02x}' for x in value])
for manufacturer_id, value in device.metadata.get(
'manufacturer_data', {}
).items()
}
def _parse_service_data(device: BLEDevice) -> Dict[str, str]:
"""
:param device: The device to parse.
:return: The service data as a ``service_uuid -> hex_string`` mapping.
"""
return {
service_uuid: ''.join([f'{x:02x}' for x in value])
for service_uuid, value in device.details.get('props', {})
.get('ServiceData', {})
.items()
}

View file

@ -16,5 +16,6 @@ manifest:
pip: pip:
- bleak - bleak
- bluetooth-numbers - bluetooth-numbers
- git+https://github.com/BlackLight/TheengsGateway
package: platypush.plugins.bluetooth.ble package: platypush.plugins.bluetooth.ble
type: plugin type: plugin